US4220175A - Anti-scald apparatus for a tub and shower single control faucet - Google Patents

Abstract

An anti-scald apparatus for a tub and shower single control faucet which incorporates a novel cam and cam follower arrangement on the hot and cold water valve means which permits substantially more than 180 degrees of rotation of the control handle. Adjustable temperature stops provide both a comfort stop for normal use and a safety stop which can be reached only by activation of a release button carried by the faucet handle by means of which the comfort stop may be overridden by continuing the rotation of the handle.

Description

This invention relates to an anti-scald apparatus for a tub and shower single control faucet and, more particularly, to such a single control faucet with a handle which may be rotated through substantially more than 180 degrees permitting the deployment of temperature stops with appreciably less criticality per degree of rotation of the control faucet handle.

Heretofore it has been known to utilize a single lever control for tub and shower installations and to rely upon movement of the handle faucet or control lever to blend or mix the outputs of hot and cold water valve members for use in the tub or shower. These installations customarily are limited to 180 degrees or less rotation of the control lever whereby the change of temperature per degree of rotation of the control lever is too high and results in temperature changes which are too abrupt, extremely critical as to the position of the control lever and unsatisfactory to the comfort of the user. In fact, scalding of the user has oftentimes occurred.

In accordance with the present invention, the aforesaid shortcomings and disadvantages of previously known devices are effectively overcome by the inclusion of a novel cam and cam follower arrangement for use in combination with the hot and cold water valve means which permits substantially more than 180 degrees of rotation of the faucet control handle. This not only permits the attainment of a substantially lower change of temperature per degree of rotation of the control handle which accrues to the comfort of the user, but also permits a non-critical positioning of both comfort and safety stops for use in connection with the tub and shower control faucet.

A "comfort" stop as used herein is a preselected temperature or relatively narrow temperature range above which the tub and shower single control faucet cannot be operated without actuation of a release button or control member by the user. Actuation of the release button or control member permits a temporary override of the comfort stop whereby the water temperature may be further increased until the safety stop is engaged.

A "safety" stop as used herein is that maximum preselected temperature, normally set at approximately 115° F. or slightly more so that the temperature will not be at or near the recommended hot water source temperature of 140° to 150° F. Scalding occurs above 115° F., above which water cannot be delivered by the tub and shower control faucet of the present invention. Its position is also adjustable, and will normally be set at the factory or at the time of installation. A safety stop which limits rotation of the control faucet handle to a maximum of about 300 degrees of rotation is possible for the present invention with lesser degrees of rotation being possible depending upon the hot and cold water source temperatures.

In a preferred embodiment of the present invention the hot and cold water valve members are contained in a removable self-contained cartridge and received in a cartridge housing member therefor. The latter has separate tubular inlets for hot and cold water and outlet passageways leading to the tub and shower respectively. The hot and cold water valve means have passageways in fluid communication with the hot and cold tubular inlets of the cartridge housing member and with the passageways leading to the tub and shower.

In addition, each of the hot and cold water valve means are provided with cam follower means which constantly engage cam means preferably mounted on a single control handle faucet means which provides for a predetermined sequence of opening and closing of the hot and cold water valve means so as to obtain a desired mixing or blending thereof. By making the cam tracks concentric with one another the control handle can be rotated through substantially more than 180 degrees. In the disclosed form of the invention, the hot and cold valve means are mounted vertically in side-by-side relationship and the cam track for one of the valves effectively straddles the cam track for the other valve.

The previously defined comfort and safety stops are provided in a slotted ring member which in turn is received in a recess in a cover plate member. The single control handle faucet means not only includes the cam means but also includes an elongated stem member which extends out of the cartridge member and through the cover plate member. A dome-shaped handle is telescoped thereon and frictionally retained on the stem with the aid of a spring member. Substantial tolerances in wall widths and similar adjustments are possible by this construction.

The handle carries an abutment or control member in spring loaded fashion which is selectively engageable with the comfort and safety stops. The abutment or control member is capable of being activated by depressing it so that it will pass by the comfort stop but will not pass the safety stop. As the handle is rotated in the opposite direction the abutment or control member is re-engaged by the comfort stop and cammed to its original position. Finally, the abutment or control member is provided with an aperture to permit the insertion of a tool therethrough so as to permit an adjustment in the location of both the comfort stop and safety stop.

The inherent advantages and improvements of the present invention will become more readily apparent by reference to the detailed description of the invention and by reference to the accompanying drawings in which:

FIG. 1 is a perspective view illustrating a tub and shower installation of the present invention;

FIG. 2 is an exploded view of a single control unit for the tub and shower appliances of FIG. 1;

FIG. 3 is an elevation view taken in vertical cross section of the assembled single control unit of FIG. 2;

FIG. 4 is an exploded view of the single control unit of FIG. 3;

FIG. 5 is an elevational view taken in vertical cross section of an assembled valve cartridge unit showing one position thereof;

FIGS. 6-9 are elevational views taken in vertical cross section of the valve cartridge unit of FIG. 5 together with a housing therefor illustrating different positions of the control stem;

FIG. 10 is an elevational view taken in vertical cross section alongline 10--10 of FIG. 6;

FIG. 11 is a plan view taken in horizontal cross section alongline 11--11 of FIG. 10;

FIG. 12 is a top plan view of the cover plate and stop assembly of FIG. 3 with parts removed;

FIG. 13 is a perspective view of the cover plate and stop assembly of FIG. 12;

FIG. 14 is a fragmentary plan view taken in horizontal cross section alongline 14--14 of FIG. 3 illustrating one position of a temperature control knob;

FIG. 15 is a plan view taken in horizontal cross section, similar to FIG. 14, but illustrating another position of the temperature control knob;

FIG. 16 is a bottom view of the control stem showing concentric camming surfaces;

FIG. 17 is a fragmentary elevational view of the control stem taken in vertical cross section alongline 17--17 of FIG. 16;

FIG. 18 is a fragmentary elevational view of the control stem as seen fromline 18--18 of FIG. 16; and

FIG. 19 is a graph showing the amount of hot and cold water passing through the control valves plotted against degrees of rotation of the control knob.

Referring now to FIG. 1 of the drawings, a typical installation of the anti-scald apparatus of the present invention is illustrated. In this figure, a single control handle faucet means is indicated generally at 20 installed in a wall adjacent atub 22 and ashower fixture 24. Faucet 26 directs water intotub 22 and a diverter valve control is illustrated at 28. For purposes of this invention,diverter valve control 28 may be completely conventional.

In the exploded view of FIG. 2, a handle is indicated generally at 30 spaced from acover plate 32. A valve cartridge housing is indicated generally at 34 and is provided with an unusually long stem member generally designated 33 having a T-shapedhandle receiving portion 35 which is inserted through acentral aperture 37 incover plate 32 when the elements are in the assembled position shown in FIG. 3.

Referring now more particularly to FIGS. 3 and 4, there is illustrated generally acartridge housing member 36 into which thevalve cartridge 34 is inserted and secured by means of lockingnut 38 which has a locking upper lip for engagement withflange 39 ofvalve cartridge 34 and is threadedly received on the cartridge housing member. The latter is shown in FIG. 4 to have hot and cold water inletpassageways 40, 42 respectively and diagonally opposed tub andshower passageways 44, 46.

Cold water valve means are shown at 48 and hot water valve means are shown at 50 each of which form a seal with theirrespective seat members 51 as shown in FIG. 5, for example. The stems of the cold and hot valve means 48, 50 carry respectivecam follower members 52, 54 the upper planar surfaces of which carry protrusions which constitutecam follower surfaces 56 for the cold water valve means and 58 for the hot water valve means. The cold water cam follower surfaces constitute a pair of protrusions the reasons for which will become evident hereinafter. Eachcam follower member 52, 54 is provided with a longitudinally extendingaperture 59 for insertion of a tool therethrough, such as an Allen wrench, for insertion into hexagonal apertures in the ends of the stems in cold and hot water valve means 48, 50 so as to adjut the setting of the valve means as desired.

Reference is now made to FIGS. 16-18 for a description of the cam surfaces which are carried on the underside of thestem member 33. As seen best in FIG. 16, the undersurface ofstem member 33 has substantially concentriccam track paths 60, 62 which are engaged by the two protrusion-like cam followers 56 on the cold water valve means. Concentric with each of thecam tracks 60, 62 is anothercam track 64 which is engaged by the singleprotrusion cam follower 58 on the hot water valve means. Since the concentric cam tracks are at different elevations and effectively interlaced but without overlapping, it is possible to get substantially more than 180 degrees of rotation for the single control handle as is evident from an inspection of the degrees of rotation possible from the FIG. 16 embodiment. Apertures are provided at 66 and 68 for alignment with the stems in the cold and hot water valve means whereby it becomes possible to set and adjust the valves for their proper sequences of opening and closing in order to obtain a desired mixing thereof such as is schematically illustrated in FIG. 19. In this figure, the extent of valve opening for the hot and cold water is plotted on the ordinate axis and the number of degrees rotation of the control knob is plotted along the abcissas axis. The hot and cold water valve means are being controlled simultaneously in effecting this blending of the valve outlets.

Referring again to FIG. 4, spring members for urging the hot and cold valve members into closed position are illustrated at 70. Thestem member 33 is illustrated to have acylindrical portion 72 intermediate acam carrying base 74 and the T-shapedhandle receiving portion 35. A cartridge cam retainer member is shown generally at 76 having a pair of apertures at 77 to permit the insertion of a valve adjusting tool such as an Allen wrench. Finally, alocking cap member 78 is threadedly secured to the external threads of thevalve cartridge 34 as seen best in FIGS. 5-7. When the locking cap member is threadedly secured to thevalve cartridge 34 it also engagesflange 81 on the cartridgecam retainer member 76 thereby locking it in place against the upper cylindrical surface of thevalve cartridge 34.

Ahandle member 80 is shown in FIG. 3 to have a first downwardly extendingrib 82 terminating in a horizontally extendingflange 84 which carries aspring 86 to help secure a frictional fit betweenhandle member 80 and the T-shapedsection 35 ofstem member 33.Handle member 80 carries a second downwardly extendingrib 88 having a thickened lower portion for retention of one end of aspring 90 the other end of which is received within anabutment 92 which functions as a control member. Abutment orcontrol member 92 has a rearwardly extendingportion 94 which establishes a sliding pivotal relationship with a centrally domed portion of thecover plate 32. In addition, theabutment 92 is provided with areturn camming surface 93 and with atool receiving aperture 96 whereby the stop members to be described hereinafter may be adjusted in their position.

Referring now to FIG. 3 in combination with FIGS. 12-15, the description of both the comfort stop and the safety stop will be given. First of all, a slottedring member 100 is illustrated received in a substantially circular groove of thecover plate 32. Not only does the slottedring member 100 have at least one slottedarea 102 to receive the stop members, but it also has at least a pair ofbosses 104 to receive cover screws orbolts 106 which are received in cooperatively positionedbosses 108 in thecartridge housing member 36 and shown in FIG. 4. Preferably ametallic plate member 110 provides a backup for this assembly so as to avoid cracking or distortion of the slottedring member 100 as thebolts 106 are drawn tight. It is also possible to provide a heat staking lug as shown at 112 in FIG. 3 to secure the back upplate 110 to thecover plate 32.

A comfort stop is indicated generally at 114 and a safety stop at 116 each as defined previously herein.Comfort stop 114 has a substantially flatleading end face 118 adapted to be engaged byabutment 92 and a rearwardly-inwardly taperingside face 120. Therebyabutment 92 may be urged radially inwardly against the pressure ofspring 90 so that theabutment 92 can be made to pass or clear the comfort stop and provide hotter water to either the shower or tub as desired. However, as thehandle 30 is rotated on its return to turn the water off, taperingsurface 120 engagescamming surface 93 ofabutment 92 and cams it inwardly until the abutment passes or clears the comfort stop 114 whereby the stop is effective upon subsequent use of thehandle 30 to prevent scalding of the user. In other words, thecomfort stop 114 is effective on each initial use of the tub and shower control. and is capable of being superseded or overcome by deliberately depressing the abutment orcontrol member 92 so as to permit additional rotation of thehandle member 30.

The location of the comfort stop is adjustable. This feature is best seen in FIG. 13 wherein thecomfort stop 114 is mounted atop amovable base 122 having a downwardly extending leg which extends into theslot 102 of the slottedring member 100. A bolt and nut assembly 124,126 secures the comfort stop in its desired rotational position between afull off location 128 and a full onlocation 130 in FIGS. 12-16. AnAllen wrench 132 is insertable throughaperture 96 in the abutment orcontrol member 92 and insertable into the hexagonal head ofbolt 124 to effect the desired rotational adjustment.

Thesafety stop 116 also has a flat leading and face at 134. However, this flat leading end face extends radially inwardly sufficiently far so that it is impossible for the abutment orcontrol member 92 to clear it even when thespring 90 is fully depressed. Thus theside 136 is straight and not tapered since there is no need to return theabutment 92 to operative position. The body of the safety stop may be cut out to make it lighter and to use less material. As in the case of thecomfort stop 114, thesafety stop 116 is adjustable in its rotational position. To that end and as best seen in FIG. 13, stop 116 is also mounted atop amovable base 138 which also has a leg extending into the slottedportion 102 of the slottedring member 100. In most instances, thesafety stop 116 would be set at the factory by means of bolt and nut assembly 140,142 in a desired rotational positon or set at the time of the initial installation of the tub and shower.

FIGS. 14 and 15 illustrate a number of progressive positions in the operation of the abutment orcontrol member 92. In FIG. 14 a phantom position is illustrated at 92a adjacent a full off stop 144 oncover plate 32. The handle is rotated in a counterclockwise direction thereby progressively increasing the temperature of the water untilabutment 92 engages the comfort stop 114 as shown in the full line position of FIG. 14. The temperature of the water at this location is such as to provide a comfortable tub and shower temperature for the user of approximately 105° F. If the user deliberately wishes to have a hotter water output, he pushes or depressesabutment 92 overcomingspring 90 as the abutment moves to the phantom position shown at 92b in FIG. 15. Thehandle 80, therefore, may be rotated further in a counterclockwise direction to a point where it completely clears the comfort stop 114 as shown in solid lines in FIG. 15 and can be continued until the abutment reaches thesafety stop 116 as shown in phantom position 92c in FIG. 15. At this location, the water temperature is approximately 115° F. to prevent scalding. The output of the control valves per degree of rotation is schematically illustrated in FIG. 19.

In order to shut off the water output from either the tub or shower, thehandle 80 is rotated clockwise.Abutment 92 leaves the position at 92c, reaches the comfort stop 114 at whichpoint camming surface 93 engages taperingsurface 120. Continued clockwise rotation ofhandle 80 effects radial inward flexure ofspring 90 andabutment 92 until the latter clears the leadingflat surface 118 of comfort stop 114 at which point the abutment 91 springs forwardly into its comfort position. Thehandle 80 may then be rotated clockwise to its full off position.

The anti-scald apparatus of the present invention is replete with means for orienting parts to be certain that they are assembled in proper position and orientation. For example, asmall protrusion 146 is illustrated oncover plate 32 for securing proper orientation with respect to the slottedring member 100 which is provided with a mating indentation at 148.

Reference to FIG. 4 illustrates a number of other orienting features. For example,valve cartridge 34 hasupstanding lugs 150, 152 of different widths to insure proper assembly. An off-center positioning oflug 154 and another lug nut, not shown, insures only one positioning of thecartridge housing member 36 vis-a-vis valve cartridge 34.Cartridge housing member 36 has slots at 156,158 as does cartridgecam retainer member 76 at 160,162 to obtain proper orientation with respect to the hot and cold water valves. The jewel-like inserts 164 are indicators of water temperature in relation to handle rotation.

Reference is made to FIGS. 5-9 to illustrate various positions of the cold and hot water valve means 48,50. Thus, FIG. 5 illustrates the position of the valves with both valves closed. Initially only thecold valve 48 is open with thehot valve 50 shut and this is illustrated in FIG. 6. A tepid water output condition is reached in FIG. 7 with thecold valve 48 remaining open and thehot valve 50 just beginning to open. The comfort setting is illustrated in FIG. 8 with both valves open an incremental amount depending upon the pre-setting of thecomfort stop 114. In FIG. 9, a maximum hot water position is illustrated with the cold water valve substantially fully closed and thehot water valve 50 substantially fully open.

If desired, the slottedring member 100 may be provided with one or more pairs of snapping ear members which extend through mating slots incover plate 32 thereby securing thering member 100 to thecover plate 32. Other means of securement may also be used.

Where back-to-back installations are made and in order to use the same counterclockwise handle rotation, the use of a T-type of piping on the hot and cold supply pipes makes it possible to have the cold water supply being connected to the hot water connection side of the valve and the hot water supply being connected to the cold water connection side of the valve.

While presently preferred embodiments of the invention have been illustrated and described, it will be recognized that the invention may be otherwise variously embodied and practiced within the scope of the claims which follow.

Claims (8)

What is claimed is:

1. An anti-scald apparatus for a tub and shower single control faucet which comprises

a. separate hot and cold water valve means,

b. a single control handle faucet means for opening and closing said hot and cold water valve means,

c. cam means controlled by said control handle faucet means, said control handle faucet means being rotatable through substantially more than 180 degrees,

d. cam follower means carried by said hot and cold water valve means engageable with said cam means,

e. an abutment means rotatable with said control handle faucet means,

f. and a comfort stop engageable by said abutment means to provide a comfortable tub and shower temperature for the user of said tub and shower,

g. said abutment means comprises a control member carried by said control handle faucet means,

h. said control member being movable so as to clear said comfort stop permitting a further rotation of said control handle faucet means,

i. said anti-scald apparatus further having a safety stop engageable with said abutment means after said abutment means passes said comfort stop,

j. and including means to adjust the position of said comfort stop thereby varying the temperature of the water of said tub and shower when said abutment means engages said comfort stop.

2. An anti-scald apparatus as defined in claim 1 wherein said control member is provided with aperture means permitting the insertion of a tool therethrough to adjust the position of said comfort stop.

3. In a control handle for use in blending the outputs of hot and cold valve means, the improvement which comprises

a. a cam track having substantially concentric cam track paths,

b. cam follower means associated with said hot and cold valve means respectively whereby said control handle can be rotated substantially more than 180 degrees in effecting blending of the outputs of said hot and cold valve means,

c. and wherein the cam track for one of said cam followers comprises a pair of tracks each generally concentric with the cam track for the other of said cam followers.

4. In a control handle as defined in claim 3 the further improvement in which one of said pair of cam tracks is positioned radially outwardly from the cam track for the other of said cam followers and the second of said pair of cam tracks is positioned radially inwardly from the cam track for the other of said cam followers.

5. In a control handle for use in blending the outputs of hot and cold valve means, the improvement which comprises:

a. said hot and cold valve means being mounted in side-by-side relationship,

b. a cam track having substantially concentric cam track paths,

c. cam follower means associated with said hot and cold valve means respectively whereby said control handle can be rotated substantially more than 180 degrees in effecting blending of the outputs of said hot and cold valve means,

d. and wherein the cam track for one of said cam followers comprises a pair of tracks each generally concentric with the cam track for the other of said cam followers.

6. In a control handle as defined in claim 5 the further improvement in which one of said pair of cam tracks is positioned radially outwardly from the cam track for the other of said cam followers and the second of said pair of cam tracks is positioned radially inwardly from the cam track for the other of said cam followers.

7. An anti-scald apparatus for a tub and shower single control faucet which comprises

a. a cartridge housing member having separate tubular inlets for hot and cold water and outlet passageways leading to said tub and shower respectively,

b. a cartridge member received within said cartridge housing member, said cartridge member having

(1) hot and cold water valve means received therewithin,

(2) passageways communicating with said hot and cold tubular inlets and with said outlet passageways leading to said tub and shower,

(3) cam follower means mounted respectively on said hot and cold water valve means,

c. a single control handle faucet means for opening and closing said hot and cold water valve means,

d. cam means controlled by said control handle faucet means, said control handle faucet means being rotatable through substantially more than 180 degrees,

e. said cam follower means being engageable with said cam means,

f. an abutment means rotatable with said control handle faucet means,

g. and a comfort stop engageable by said abutment means to provide a comfortable tub and shower temperature for the user of said tub and shower,

h. said abutment means comprising a control member carried by said control handle faucet means, said control member being movable so as to clear said comfort stop permitting a further rotation of said control handle faucet means,

i. said anti-scald apparatus further having a safety stop engageable with said abutment means after said abutment means passes said comfort stop, and

j. including means to adjust the position of said comfort stop thereby varying the temperature of the water of said tub and shower faucet when said abutment means engages said comfort stop.

8. An anti-scald apparatus as defined in claim 7 wherein said control member is provided with aperture means permitting the insertion of a tool therethrough to adjust the position of said comfort stop.

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